Electrical protective apparatus



Aug. 30, 1927.

FIR. PARKER ELECTRICAL PROTECTIVE APPARATUS Original Filed Jun e l, 1915 SWITCHBOARD.

INVENTOR.

Patented Aug. 30, 1927.

UNITED STATES FREDERICK R. PARKER, OF CHICAGO, ILLINOIS.

ELECTRICAL PROTECTIVE APFAEATUS.

I priginal application filed June 1, 1915, Serial No. 31,487.

Divided and. this application filed February 3, 1922. Serial No. 533,739.

This application is a division of my United States patent application Serial No. 31387, filed June 1, 1915, on electrical protective apparatus, which was renewed on June 17, 1921, under Serial No. MESACSI' and which has matured into Patent 1,405,935, issued Feb. 7, 199.2.

My invention relates to apparatus for protecting electrical circuits and apparatus from injury from electricity in various forms, the construction illustrated in the accompanying drawings being particularly adapted for what is known as telephone switchboard protectors, although the invention may be used in connection with other systems and apparatus and in various places.

An object of my invention is to provide improved electrical protective apparatus, and improved features in such apparatus, substantially as herein set forth.

Another objectof my invention is to provide a. plurality of thermally-releasable circuit-controlling devices in a protector device, preferably in the form of soldered or cemented connections, one of which is under the control of a resistance heater and another of which is under the control of a high-potential electricity arrester or spark-gap elec tricity arr-ester.

Still another object'of my invention is to provide an improved, simple and efficient heat-cartridge or resistance heater device for electrical protective apparatus or for other uses.

A further object of my invention is to proride improved means for retaining the solder (ii-cementing material of the thermallyreleasable soldered or cemented connections of the apparatus, upon the operation there of. for use in resoldering or recementing the said connections repeatedly after operation.

A still further object of my invention is to provide an improved high-potential electricity arrester or spark-gap electricity arrester for electrical protective apparatus.

Another object of my invention is to provide an improved dielectric member or separator for high-potential electricity arresters or spark-gap electricity arr-esters.

Still another object of my invention is to provide improved thermally-operable switches in electrical protective apparatus.

A. further object of my invention is to provide improved testing contacts in elect'ri .tl protective apparatus.

A still further object of my invention is to provide 1mproved alarm-circuit wlrlng and alarm-pring terminals for the appafrom the ting one preferred form of my invention,

Figure 1 is a plan view of a vertical strip of protective devices of the invention, with portions shown in section, showing a pair of protectors or duplicate sets of the protective apparatus mounted on opposite sides of a ground or mounting plate, the apparatus on the left-hand side of the mounting plate being in set position ready for operation and the apparatus on the right-hand side of the mounting plate being in an operated position Fig. 2 is a front elevation of a pair of i protectors or duplicate sets of the protective apparatus of Fig. 1, mounted on opposite sides of a ground or mounting plate; Fig. 3 is a plan view of one of the heat-cartridges or resistance heaters of Fig. 1, the body of i the device being shown in section to show the interior construction thereof; and Fig. 4 is a side elevation of the heat-cartridge or resistance heater device of Fig. 3.

Like characters refer to like parts in the several figures.

The form of the invention illustrated in the accompanying drawings will now be described in detail as follows:

The ground plate or mounting plate preferably comprises three thin flat metal plates 1 2 2 placed together broadsidedly, al though I may use other forms of ground or mounting plates with the protective apparatus of this invention. The mounting plate 1 2 2 illustrated, forms the subject matter of my co-pending United States patent application Serial No. d78,157, on mounting plate for electrical protective api made in other forms.

paratus, above mentioned. Double-ended bolts 26 26 extend through the lnountii r; plate 2 1 2 preferably as shown and are used for mounting the protective apparatus onto opposite sides of the mounting plate preterably as shown. The plates 2 1 2 oi. the menu l1- ing plate are preferably held together by rivets 3 and by the apparatus mounted on bolts 26 26. Each of the bolts 26 26 has a shoulder portion or projection portion 25 there on at the middle thereof, which portion 25 is preferably square but which may be The middle plate 1 of the mounting plate is provided with holes therethrough tor acconnnodating the pertions 25 25 on the bolts 26 26, these holes in the middle plate l being preferably square, although they may be made in any shape and size to accommodate and fit the pro jecting portions 25 25 on the bolts 26 26. The portions 25 25 tilt... in the holes in the middle plate 1, hold ll 2 bolts 26 26 from turnin and the plates 2 2 bearing 25 25 on the a against the projecting portions bolts 26 26 hold these bolts from lllOXliljEf endWise in either direction. This permits the sets of protective apparatus on opposite sides of the mounting plate to be mounted onto opposite ends of the bolts 26 separately. The portions 25 on the bolts 26 26 are preferably slightly thicke' than the middle plate 1., so that the plates 2 2 will bear tightly against the portions 25 23 and thereby make good electrical connection between the bolts 26 26 and the mounting plate or ground plate 2 l 2. The mounting bolts 26 26 and their co-operation with the mounting plate 2 l 2 are covered in my above-mentioned co-pending applies tion Serial No. 1-? 8,457 on mounting plate for electrical protective apparatus.

The outer plates 2 2 of the mounting p ate are provided with tongue portions 24]: 2 1 along the .tront edge of the mounting plate, over which tongue portions the inner electrodes 10 10 of the high-potential electricity arresters 10 ll 10 l6 11 10 are placed as shown, the grooves 12 12 in the inner elcctrodes 1O 1O accon'nnodating the tongue portions 2 L 2-it so that the electrodes l0 l0 prel era-bly rest against the middle plate 1 on opposite sides thereof. The tongue portions 24 24: prevent lateral displacement of the inner electrodes 10 10 of the high-potential electricity arresters. This feature is covered in my above-mentioned co-pending application Serial No. 478,457, on i'nounting late tor electrical protective apparatus. The edge portions of the plates 2 2 between the tongue portions 24 may "form stops to limit the insertion of the inner electrodes 10 10 of the high-potential electricity arresters into the apparatus.

Spring members 6 7 of the mounting plate 2 9, on each side l 2, constitute a set. Such sets of spring members are mounted in rows along opposite sides of the mounting plate 2 l 2, on bolts 26 26 prel erably as shown, the springs of each set being insulated from each other by insulating members 27 27 and insulating bushings around the bolts26 26 (not shown). The members f 5) are preferably stilt enough to have very little spring in them as utilized, the nuts on the bolts 26 26 electrically connecting the members l) l) with the bolts 26 26 which bolts are electrically connected with the mounting plate 2 l 2 as hcreinbetore 'lorth. Springs 5 5 and 6 6 are preterably heavier springs than springs 7 7, and springs 8 8 are preferably considerably lighler than springs 7 7. All of the springs are preferably punched out of sheet (,iGllllilIl-SllVCl'. Two sets of the springs directly opposite each other on opposite sides oil the ground plate 2 1 2 constitute a pair, and each pair of sets ot the protective apparatus is intended to be connected with a metallic line. in systems where metallic lines are used, such as telephone systems, although they may be connected otherwise if desired. Springs 5 5 ot a pair of sets of the protective apparatus are provided with respective line tern'iinals 2-54: 35 to which the line wires -38 39 are connected, respectively. "flu-i wires 38 and 39 may constitute a metallic line or they may be two groundedreturn or connnon-return lines. Springs 7 7 oil a pair ol sets of the protective apparatus are provided with respective switchboard terminals 36 37 to which the switchboard wires i-O ll are connected, respectively. The wires 110 and 41 may constitute a metallic circuit or they may be two grounded-return or common-return circuits. Springs 8 8 are used for closing an alarm circuit when the apparatus operates, to control an alarm to indicate that the apparatus has operated, and each spring 8 is provided with a terminal 32 bent preferably as shown. All of the alarm tei'n'iinals 32 252 along each side of the mounting plate 2 1 2 are preferably soldered to a heavy wire 33 vhich preferably extends along each side of the mounting plate. The wires 33 2:33, on opposite sides ot the mounting plate. are located far enough out from and away from the mounting plate 2 1 2 and the ends of the bolts 26 26 so as not to interfere with dismounting the spring members 5 6 7 8 9 from the bolts 26 26, or remounting said spring members onto the bolts 26 26, when the terminals 32 of the sets of springs to be dismounted or remounted are unsoldered from the common wire 33. The terminals 32 32 ot' the springs 8 8 reach out over the wires 32 33, instead of extending under them, which greatly facilitates the dismounting or remounting of the springs 8 8. The wire 33 on opposite sides of the mounting plate 2 1 2, are preferably electrically connected with each other at an end of the mounting plate 2 1 2, so as to eleemay be connected from the wire 33 to the mounting plate 2 1 Qso as to have its circuit closed and be operated by'any one of the alarm springs 8 8 on either side of the mounting plate 2 1 2 coming into contact with its corresponding contact member 9, as is the case when a protector device oi the apparatus operates, aswill be hereinafter described. The alarm springs 8 8 preferably carry respective insulators 80 30, when it is not desired to ground the springs 7 7 .upon the operation of the apparatus. In smaller installations where the alarm is not required in connection with the protective apparatus, thesprings' 8 8 with their insulators 3O 30, the contact members 9 9, and the conductors 33 33, may be left oil of the apparatus; it being easy to add these parts to the apparatus if the alarm is required later.

Each high-potential electricity arrester 10 11 10 is inserted between the free end of a line spring 5 and the ground plate 2 1 2 which is connected to earth, the tongue portions 13 and 14: on the spring member 5, bearing against the outer electrode 10 of the arrester, due to the spring tension in spring member 5, preferably in a groove 12 in the outer electrode 10, so as to hold the arrester firmly against the ground plate and at the same time prevent lateral displacement of the outer electrode 10. The tongue portions 18 and 1% bear against the outer electrode 10 independently of each other so as to hold the electrodes 10 10 firmly against the dielectric member 11 'tential electricity arrester.

along their entire length. The end ,16 of the tongue portion let of the spring member 5 is preferably turned inwardly or toward the ground plate 2 1 2, to form a stop for limiting the insertion of the outer electrode 10 into the apparatus. The construction of the portions 13 14 and 16 of the spring members 5 5 is described and claimed in my United States Letters Patent No. 1,179,380, dated April 11, 1916, on high-potential electricity arrester. For the electrodes 10 10 I may use metallically'plated carbon blocks as described and claimed in my said United States Letters Patent No. 1,179,880, dated April 11, 1916, on high-po- For the dielectric member 11 I may use a piece of celluloid or other heatsusceptible material adapted to permitthe discharge of electricity thereacross from one electrode 10 to the other to take place through air, as described and claimed in the United States Letters Patent No. 1,110,259, dated Sept. 8, 19141, on electric line apparatus protector. However, a form oi high-potential electricty arresteravhich I desire to incorporate in this invention, preferably comprises carbon or other disintegrable electrodes 10 10, a dielectric member 11 of celluloid or other suitable insulating material, interposed 'between the electrodes 10 10, and metal foil on opposite sides oi the dielectric member 11 adjacent the discharge surfaces of the disintegrable electrodes 10 10. This dielectric member 11 is preferably provided with a large number of small holes or recesses therein to permit the discharge of electricity thereacross to take place through air and to scatter the discharge through the arrester and thus lessen its force at any one point. Scattering the discharge in this manner protects the metal foil and the surfaces of the electrodes from injurious effects of heavy concentrated discharges. The metalfoil, such as tin foil or other foils or thin metal coverings, may be applied, pasted or cemented to the opposite sides of the dielectric member 11 in any suitable manner, care being taken that the edges of the foil on the opposite sides of 'the dieslectric member do not come into contact with each other at the edges of the dielectric member. hen the metallized dielectric member 11 is interposed between the electrodes 10 10 of the arrester, the thin metal foil or covering is held against the active or dischar 'e surfaces or the electrodes '10 10, which prevents particles oi disintegration from said active or discharge ,surfaces of the electrodes 10 10 from entering the holes or recesses in the dielectric member 11 and thereby prevents such particles from forming a leakage or short-circuit through the arrester. \Vhere celluloid or other heat-sotttenable or heatsusceptible material is used as the dielectric member 11, a continued are through the arrester will heat the dielectric member sufficiently to soften it or change it in such a way so as to permit the spring member 5 to press the outer electrode 10 into conductive connection with the inner electrode 10 and thereby stop the arc and the heating caused thereby.

The metal it'oilor covering on opposite sides of the dielectric member may also be con sidered to be electrodes for the arr-ester, the carbons .or other conductive portlons 10 10 hearing thereagainst being means for conducting the high-potential electricity to the metal foil or covering.

Each heat-cartridge or resistance heater device, shown in detail in Figs. 3 and 4;, is soldered or cemented to the free ends of a pair oi spring members 6 7 of a set of the protector springs, preferably as shown in F 1, by easily-fusible metallic solder or cementing material. The portion 29 of the spring (3, at the outer end of the portion 21 ot the heat-cartridge 20, bears against the line spring 5 preferably as shown in Fig. 1, due to the spring tension in spring 6, so as to provide an openable contactfor testing purposes. The spring 6 is provided with a pair of earportions l8 l8 turned up trom opposite edges of the spring, between which portions 18 18 the llat portion 2t of the lieat-cartri .lge is soldered or cemented. The portions 18 18 are far enough apart so that the portion 21 may readily slipiti'om b -t-twceu them when the solder or cement ing material at 21 is softened by abnormal heating. The spring 7 is provided with a pair of ear-porti as 19 19 turned up from pposite edges of the spring, between which portions 19 19 the Hat portion 22 of the heat-cartridgo is soldered or cemented. The portions 19 it) are far enough apart so that the portion may readily slip from between them when the solder or cementing material at 22 is softened by ab normal heating. llhicessiw heating in the arrester l l1 10, due to a continued discharge therethrough or to a heavy discharge oi short duration. heats the solder or cementing material at 21, on account of the portions 13 and 29 being so closely associated with the arrester 1O 11 i0, and when this solder or cementingn1aterial at 21 becomes soi'itoned by such heating, the spring member 7, which has a tension tending to throw it away from the ground plate 2 1f 2 as shown on the right-hand side of Fig. l. pulls the heat-cartridge 20 away from the spring member 6 and thereby opens the circuit between the heatcartridge 20 and the spring member 6 which cuts the switchboard conductor 4L0 or 4-1 from the corresponding line conductor 38 or 39. The excessive high-voltage currentwhich causes the excessive heating in the arrester 10 ll 10, which current: may be a stroke of lightning, an electric light current, a street-car current, eta, comes from line wire 38 or 22?) and passes through a line spring and an arrester 11 10 to the grounded plate 2 l 2. in a manner well understood. EX- ccssive heating in the resistance heater or lleat-cartridge 20, due to a. low-voltage current therein in excess of the normal, which current is generally termed a sneak-current, or to a high-voltage current which may in some instances-s pass through the resistance heater 20, which current generally comes :trom a. line conductor 38 or 39 and passes through a line spring 5, the resistance heater 20, the corresponding switchboard spring '7 and the switchboard conductor 40 or all, heats the solder or cementing ma terial at 22, and when this solder or ce- Inenting material at 22 becomes softened by such heating, the spring member 7, due to the aforesaid tension therein, separates it-- self from the heat-cartridge and thereby opens the circuit between itself and the heatcartridge 20 which cuts the switchboard conductor ll) or 41 from the corresponding line conductor 38 or 39. In every instance when. a switchboard spring 7 operates, ei her from excessive heating in an arrester 10 11 10 or from excessive heating in a liGiilF-(lll'l'ldgt 20, the circuit; and apparatus connected therewith is cut ott from the line and thus protected ftrom injury from the injurious current in the line. If this injurious current is ot' low voltage, say less than 500 volts, it will not tlow to ground through the protective apparatus and probably unnecessarily blow a luse soi'newhere on the line, because there is in this case no ground for the current established by the protective apparatus. However. it the injurious current is of high .'oltage. say of 500 volts or more, it will are across the dielectric ll of the arrcster 1O 11 t0 and pass of? to ground through the ground plate 2 1 2 in a manner well. understood. If this flow of current througl'i. the arrcster ll) 11 1.0 continues, the sol tenable dielectric 11 will soon become softened by the heatot the arc whereupon the spring will press the outer electrode .10 into con-- ductive connection with the inner electrode 10 of the arrester and thereby stop the arc and the heating thereot and at the same time establish av ground connection tor the injurious current. In this case the increased flow of the injurious current through the established ground connection may be sullicient to blow a line fuse on the line which will stop the flow of the injurious current to the protective apparatus. l Vhcn both of the springs 7 7 ot a pair of sets of the protective apparatus operate, both. of the switchboard conductors it) and ll of a metallic line will be cut oil? from both of the line conductors 3S and 39 of the metallic line. lVhen a switchboard spring 7 operates, it bears against an insulating portion carried by an alarm spring 8, and in so doing presses the alarm spring into contact with the corresponding contact member 5) and thereby cioses an alarm circuit as hereinbefore set forth, to sound an alarm or give a visual. signal, or both, as an indication that a protective device has operated. The insulating members 30 30 are carried by the springs S 8 and not by the springs 7 7, so that when the alarm springs 8 8 are not required. and are removed from the apparatus the members 30 i-Xl will not remain in the apparatus as they would if attached. to the springs 7 7. The flat portions 21 and 22 of each heat-cartridge 20 are preferably arranged to lie in the plane of operation of their spring 7, as shown in Fig, 1, so that the soldered joints or switches at 21 and 22 will operate similar to knife switches and not bind as they might if arranged in other positions. The holes 4L7 and 6L8 in the portions 21 and 22 of the heat-cartridge devices 20 20 are filled with the soft solder or cementing material which. is used to solder or cement the cartridges 2O 20 to the pairs of spring mem hers 6 7 6 7 of the apparatus, and are for the purpose of holding or retaining the solder or cen'ienting material when the apparatus operates and thus actingas reservoirs to retain the solder or cementing material for resoldering or resecuring the openable soldered or cement-ed joints in closed position repeatedly, after operation for subsequent operations. The resolder ing of the joints 18 21 and 19 22 may be done in anysuitable manner. By thus retaining the solder or cementing material I am able to resolder or recement the openable joints at 21 and 22 a great many more times than where the holes 47 and 18 are not provided. The. smallineck portion 42 provided in each heat-cartridge device 20,

is for the purpose of preventing the heat from thehigh-potential electricity arrester 10 11 10 from being conducted to the openable joint at 22 to any appreciable extent, and the heat from the heat-cartridge or re sistance heater 20 from being conducted to the openable joint. at 21 to anyappreciable extent.

This construction makes excessive heating inthe heat-cartridge orresistance heater 20 always openthe soldered or vcemented joint at 22 and not at 21, and ex cessive heating in the arrester 10 11 10 always open the soldered or cemented joint at 21 and not at 22. This method of oper ation of the apparatus therefore servesa's an automatic indicator to indlcate what.

kind of an injurious current was present on the line and caused the operation of the apparatus; for if the joint at 22 opensit shows that a: sneak-current caused the oper ation of the apparatus, while if the joint at 21 opens it shows that a high-voltage current caused the operationof the apparatus This is important in facilitating the clearing of trouble, in advising the attendant whether or not a dangerous current of highvoltage is to be contended with in reset-i ting the apparatus and testing the line,

and in other respects. This construction also makes the resistance heater 20 more sensitive and util zes the heat more efiiciently for causing the operation of the apparatus; which enables me toreduce the resistance of the resistance heater 20.

The resistance heater of the heat-cartridge 20 preferably comprises suitable comminuted resistance material 52 placed between an exterior hemispherical cup-shaped portion 20 and an interior hemispherical portion 50, the edge of the portion20 being turned over the edge of the insulated por tion 19 which is preferably a part of the portion 50, so as to hold the material 52 in the proper degree of compression to give the required resistancefor the heater. The portion 20 is preferably a part of the metallic terminal member 21, and the portions tt) and 50 are preferably parts of the metallic terminalmember The portion 19 is preferably covered with a non-intlammable insulating enamel or varnish to insulate it from the portion 20 as shown in Figs. 3 and a, the insulating enamel or varnish preferably covering the inner end of the portion 19 down to the hemispherical portion 50 so as to prevent the portion 19 from shortcircuit-ing the resistance material 52. With the'hemispherical portions 20 50, the dis tance from one of these parts to the other,

through the resistance material 52, is the.

same at all points, and consequently the heating due to a current of electricity. passing through the resistance material 52'from one of the portions 20 50 to the other, is uniformly distributed over the portion '50.

Furthermore, this construction of the heater concentrates the heat around the portion 50 Where it is needed to soften the heat-sus-' ceptible material at 22, on account of the hemispherical cross-section ofthe material 52, taken so that the flow of current is normal thereto, becoming less and less as it approaches the portion 50 and consequently the resista'nce of the material 52 becoming greater and greater as the portion 50 is approached. As the heat is thus concentrated around the portion 50, there is but little heat radiated from the exterior of the por-' This construction of my. 1

solder or uncement the openablejoint at 21,.there are thus two thermally-releasable circuit-controlling devices provided in each set of the protective apparatus, and they are controlled,respectively, by two difiere ent types of protective devices; f p In the improved apparatus of thisinvention, the high-potential electricity. arresters 1O 11 1010 11 10, the heat-cartridges 2020, and the alarm contacts 931 9 31, are ,all located to the front of the apparatusin plain View from in front of the mounting plate 2 1 2. This arrangement of the parts 1s of great advantage in the maintenance of the apparatus and in locating and clearing trouble. With this construction, a new heatcartridge 20 may be inserted into the apparatus from directly in front of the bank or strip of protectors, the portions 21 and 22 of the cartridge 20 being soldered or cemented to the portions 18 18 and 19 19, respectively, of the respective spring members 6 and '7, in any suitable manner.

After utilizing a suitable test plug or plugs (not shown) in connection with the openable testing contacts 13 29 1 Q9 ol. the protective apparatus for testing the protective apparatus and the various circuits extending therethrough, in a. manner thought to be Well understood, which testing contacts 13 29 13 29 are preferably maintained in open position by the test plug or plugs during such testing, the test plug or plugs are simply removed from. the protective apparatus, in a manner well understood, whereupon the spring members (5 (3 re-engage the respective spring members 53 5, due to the tension in spring members (3 6 being stronger than the tension spring members 7 7 and acting to move the spring members 6 7 6 7 with their respective heat-eartridges 2O 20 toward the mounting plate 2 l. 2. The spring members (3 G re-engaging the spring members 5 a in this manner, reset the heat-cartridges 20 20 in the respective circuits 38 10 and 39 4:1 for subsequent open ations.

I desire it to be understood that various means and devices adapted to co-operate with the openable testing contacts 13 29 13 29 or with the protective apparatus for testing purposes, are contemplated in this invention.

I also desire it to be understood that the various features of this invention may in some instances be used singly and in other instances collectively, without departing from the scope of the appended claims, and that all such usages are contemplated herein.

I further desire it to be understood that I do not wish to limit this invention nor the various parts thereof to the precise details of construction herein set forth, as

' many modifications thereof may be made or utilized without departing from the scope of the appended claims.

What claim herein as my invention is:

1. A heat-cartridge comprising resist ance heater and a plurality of thermal portions one of which is under control of the said heater, and means for preventing the free passageoi heat from the said heater to another of the said thermal portions.

2. A heat--cartridge comprising a resist ance heater and a plurality of thermal. port-ions one of which is under control. of the said heater, and means tor preventing the tree passage Ofl heat between the said thermal portions.

3. An electrical, protector having operable circuit-controlling mechanism, a plurality of serially-arranged openable soldered joints normally restrainin the said circuit-controlling mechanism from operating and operable thereby upon abnormal heating, a resistance heater, excessive heatin in which heats one of the soldered. joints sullicicntly to permit the said circuit-c mtroiling mechanism to operate and open this soldered joint, a high-potential electricity arrester, excesiire heating in which heats another oi oi the soldered joints sulliciently to permit the said circuit-controiiing mechanism to operate and open this soldered joint, and means for compelling the said resistance heater and arrestcr to heat only their respective soldered joints for causing the opera tion of the said nrechanism.

l. An electri *al protector having operable circuit-controiling mechai'iisln, a plurality of serially-arranged oponable soldered joints normally restraining the said circuit-controlling mechanism from operating and operable thereby upon abnormal heating, a resistance heater, excessive heating in which heats one of the soldered joints sulliciently to permit the said circuit-controlling mech anism to operate and open this soldered joint, and a high-potential electricity arrester, excessive heating in which heats another of the soldered joints sulliciently to permit the said circuit-controlling lllUCllLb nism to operate and open this soldered joint.

5'. An electrical protector having an operable circuit-controlling member, aphnrality oi serially arranged thenmdly-releasable devices controlling the said cincuit-controlling member and operable thereby upon abnormal heating, a resistance heater and a high-potential electricity arrester arranged to heat the respective therinally-relcasable devices to cause the operation oi the said circuitcontrolling member, and means for compelling the said resistance heater and arrester to heat only their respective then mally releasable devices for causing the operation or the said circuit-controlling member.

6. An electrical protector having an oper able circuit-controlling member, a plurality of serially-arranged thermally-releasable devices controlling the said circuit-controlling member and operable thereby upon abnormal. heating, and a resistance heater and a higl1potential electricity arrester arranged to heat the respective thermally-re leasable devices to cause the operation ol the said circuit-controlling member. i

7. An electrical protector having an operable circuit-controlling member, a plurality of serially arranged thermally-releasable devices controlling the said circuit-controlling member and operable thereby upon ab normal heating, a plurality of protective de-.

vices of: difiierent characters arranged to heat the respective thermally-releasable deable circuit-controlling member, a plurality of serially-arranged thermally-releasable devices controlling the said circuit-controlling member and operable thereby upon abnormal'heating, and a plurality of protec tive devices of different characters arranged to heat the respective thermally-releasable devices to cause the operation of the said circuit-controlling member.

9. An electrical protector having an operable circuit-controlling member, a plurality of serially-arranged. thermally-relea-sable devices controlling the said circuit-controlling memberand operable thereby upon abnormal heating, means for heating, the said thermally-releasable devices separately whereby each may cause the operation of the said circuit-controlling member, and means torprventing the free passage of heat from one thermally-releasable device to another. 7 l

10. An electrical protector having an operable .circuit-controlling member, a plurality of serially-arranged thermally-releasable devices controllingthe said circuit-controlling memberand operable thereby upon abnormal heating, anclineans for heating the said thermally-relcasable devices separately. whereby each may cause the operation of the said cirouit-controlling member,

11. In an electrical protector comprising a sneak-current resistance heater and a highpotential electricity arrester, a thermallyreleasable device under control of the said resistance heater and serving when operated to indicate that. the apparatuswas operated by a sneak-current, another thermally-releasable device under control of excessive heating in the said arrester and serving when operated to indicate that the apparatus was operated by high-potentialelectricity, and common operating means for operating the said therinally-releasable devices when heated. I I

12. In an electricalprotector. comprising a plurality of protective devices of different characters, a plurality of thermally-releasable devices under control of the respective protective devices and serving when operated to indicate the operation of the apparatus threughthe agency of. the respective protective devices, and common operating means for operating the said thermally re leasable devices when heated.

13. In an electrical protector comprising a pluarality of protective devices of different characters, a plurality of operable de vices under control of the respective protective devices and serving when operated to indicate the operation of the apparatus through the agency of the respective protective devices, and common 'operating means tor operating the said operabledevices upon abnormal electrical conditions in the respective protective devices. I

14. In an electrical protector, a plurality of operable devices serving when operated to indicate the operation of the apparatus by electricity ofhigh or low potentials, respectively, and common operating means for operating the said operable devices upon abnormal electrical conditions.

15. In apparatus of the character set forth having an openable thermally-controlled switch comprising a plurality of switch members normally secured together by solder, at least one of the said switch members having one or more holes therein containingsome of the solder and retaining same when the switch is opened, for use in resoldering the switch in closed position when reheated.

16. In electrical. apparatus having an openable thermally-controlled switch comprising a plurality of switch members normally held in electrical connection with each other by heat-softenable material, at least one of the said switch members having one or more cavities therein containing some of the heat-soi tenable material and retaining same when the switch is opened for use in resecuring the switch in closed position when reheated. I

17. In apparatus having an openable thermally-controlled soldered joint, at least one of the joined members having one or more cavities therein containing some of the solder and retaining same when the jointis opened, for use in resoldering the joint in closed position when reheated.

18. In apparatus having an openabl'e thermally-controlled connection comprising a plurality of members normally secured together by heat-softenablematerial, at least one of the said member having one or more cavities therein containing some of the heatsottenable material and retaining same when the said connection is opened, for use in re securing the said connection in closed position when reheated.

19. In electrical protective apparatus of the character set forth having an openable spring member, a plurality of serially-arranged thermally-releasable knife switches normally controlling the said spring member and operable thereby upon abnormal heating, and means for heating each of the said knife switches, the heating of either of the latter permitting the said spring member to operate and thereby opcrate the heated switch, the said knife switches being operable in the plane of operation of the said spring member.

20. In electrical protective apparatus of the character set forth having an operable spring member, a thermally-releasable knife switch normally controllingthe said spring member and operable thereby upon abnormal heating, and means for heating the said knife switch to permit the said spring member to operate and thereby operate the said knife switch, the said knife switch being operable in the plane of operation of the said spring member.

21. In electrical protective apparatus of the character set forth, an operable spring member, and a thermally-releasable knife switch normally controlling the said spring member and operable thereby upon abnormal heating, the said knife switch being operable in the plane of operation of the said spring member.

As inventor of the foregoing I hereunto subscribe my name this 1st day of February, 1922.

FREDERICK R. PARKER. 

